Comparing high performance techniques for the automatic generation of efficient solvers of cardiac cell models

Autor: Fernando O. Campos, Rodrigo Weber dos Santos, Ricardo Silva Campos, Ciro de Barros Barbosa, Marcelo Lobosco, Johnny Moreira Gomes
Rok vydání: 2013
Předmět:
Zdroj: Computing. 95:639-660
ISSN: 1436-5057
0010-485X
DOI: 10.1007/s00607-012-0268-y
Popis: In silico experiments have been used for a better understanding of the electrical activity of cardiac myocytes, usually via models based on nonlinear systems of ordinary differential equations. Many different models for cardiac myocytes are available that vary on the level of complexity, depending on how detailed the phenomena is described. Long simulations of realistic and complex models are computationally expensive. To cope with this problem, this work compares different techniques to automatically speed up the numerical solution of cardiac models: (a) adaptive time step method, (b) Partial Evaluation (PE) and Lookup Tables (LUTs), and (c) an automatic way to find and exploit code concurrency via OpenMP directives. All the techniques were implemented as part of an automatic code generator for the numerical solution of models that are described in the CellML markup language. Experimental results demonstrated that the adaptive time step simulations were up to 32 times faster than the traditional Euler that use fixed time step. Combined with parallel computing on a multicore processor the execution time was further decreased and simulations were 41 times faster. Finally, the LUTs and PE techniques resulted in a 117-fold improvement in computation time over the Euler method and 72-fold improvement when compared to the traditional Rush–Larsen method.
Databáze: OpenAIRE
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